A wheel slide 20 for supporting a grinding wheel 40 is mounted on a carriage 100 which extends across a work area to engage parallel horizontal ways 61, 62 on opposite sides of the axis of rotation B of a workpiece W. The carriage 100 has ways 114, 115, 116 which support the wheel slide 20 for vertical movement toward and away from a horizontal axis B of rotation of the workpiece.

Patent
   4850146
Priority
Oct 30 1986
Filed
Mar 10 1988
Issued
Jul 25 1989
Expiry
Oct 30 2006
Assg.orig
Entity
Large
2
9
EXPIRED
1. Apparatus for use in grinding a workpiece (W), of the type including a base (60), means (80) for supporting a workpiece (W) for rotation relative to said base about a horizontal axis (B) including headstock means (81) for rotatably supporting a first end portion of the workpiece and footstock means (83) for rotatably supporting a second end portion of the workpiece, first and second spaced apart ways (61, 62) on said base (60) and extending parallel to and disposed on opposite sides of the horizontal axis of rotation (B) of the workpiece (W), said first and second ways (61, 62) being disposed beneath a horizontal plane containing the axis of rotation (B) of the workpiece (W), a carriage (100) movable along said first and second ways (61, 62), a wheel slide (20) mounted for vertical movement on said carriage (100), a rotatable grinding wheel (40) mounted for rotation about an axis disposed above said axis of rotation of said workpiece, and means for rotating said grinding wheel (40) wherein said carriage (100) is characterized by being formed as a rigid housing located above and spanning the horizontal axis (B) of rotation of said workpiece (W), said housing formed by a pair of generally vertically extending side walls (111, 112), a connector section top wall (113) integrally connecting the upper ends of said side walls (111, 112), and an end wall (117) integrally connecting together one end of each side wall (111, 112) to form an inverted enclosure at least partially open at one end, lower portions of said side walls (111, 112) extending below said end wall (117) to form a pair of leg portions straddling said horizontal axis (B) of rotation of said workpiece (W).
6. An apparatus for use in grinding a workpiece (W), said apparatus comprising a base (60), means (80) for supporting the workpiece for rotation relative to the base about a horizontal axis (B), first and second spaced apart ways (61, 62) disposed on said base on opposite sides of the horizontal axis (B) of rotation of the workpiece, said first and second ways (61, 62) being disposed beneath a horizontal plane containing the axis (B) of rotation of the workpiece (W), a carriage (100) movable along the first and second ways (61, 672), a wheel slide (20) disposed on said carriage (100) and above the horizontal plane containing the axis (B) of rotation of the workpiece (W), drive means connected with said carriage (100) and wheel slide (20) for moving said wheel slide toward and away from the axis of rotation (B) of the workpiece (B) while maintaining the wheel slide (20) above the axis of rotation of the workpiece, and a grinding wheel (40) rotatably mounted on said wheel slide (20), said apparatus being characterized by said carriage including a first vertical side wall (111) extending upwardly from a first one of the ways (61) through the horizontal plane, a second vertical side wall (112) extending parallel to said first vertical side wall (111) and upwardly from a second one of the ways (62) through the horizontal plane, said wheel slide (20) being at least partially disposed between said first and second side walls (111, 112), a connector wall (113) extend between upper end portions of said side walls (111, 112), a back wall (117) extending between said first and second side walls (111, 112), said back wall (117) extending downwardly from an upper end portion disposed adjacent to said connector wall (113) to a lower end portion disposed adjacent to and above the horizontal plane, said upper and lower end portions of said back wall (117) spanning the space between said first and second side walls (111, 112).
7. An apparatus for use in grinding a workpiece (W), said apparatus comprising a base (60), means (80) for supporting the workpiece for rotation relative to said base about a horizontal axis (B), first and second spaced apart ways (61, 62) on said base (60) and extending parallel to and disposed on opposite sides of the axis (B) of rotation of the workpiece (W), a carriage (100) movable along said first and second ways (61, 62), a wheel slide (20) mounted on and movable relative to said carriage (100), a rotatable grinding wheel (40) mounted on said wheel slide, wheel slide drive means (30) connected with said carriage (100) and said wheel slide (20) for moving said wheel slide (20) and grinding wheel (40) along a path extending perpendicular to a plane containing the axis (B) of rotation of the workpiece, said wheel slide drive means (30) being operable to move said wheel slide (20) between an extended position in which said grinding wheel is disposed adjacent to the axis (B) of rotation of the workpiece (W) and a retracted position of which the grinding wheel is spaced further from the axis (B) of rotation of the workpiece (W), and grinding wheel drive means (50) for rotating the grinding wheel, said apparatus being characterized by said carriage (100) including a rigid housing enclosing said wheel slide, said rigid housing including a pair of parallel rigid side walls (111, 112) which extending perpendicular to and through the plane containing the axis (B) of rotation of the workpiece (W), said rigid side walls having first end portions which are disposed adjacent to said ways (61, 62) and second end portions which are disposed on a side of the plane through the axis of rotation (B) of the workpiece opposite from said ways, a rigid connector wall (113) interconnecting said second end portions of said sidewalls at a location adjacent to the retracted position of said wheel slide (20), and a rigid back wall (117) extending between said side walls (111 and 112) and transversely to said connector wall (113) and sidewalls (111 and 112), said back wall (117) being entirely disposed on the same side of the plane through the axis (B) of rotation of the workpiece (W) as said connector wall (113) and being spaced apart from the plane containing the axis (B) of rotation of the workpiece (W), said back wall (117) having a first portion which extends between and interconnects the end portions of said side walls at a location adjacent to said connector wall (113) and the retracted position of said wheel slide (20), said back wall (117) having a second portion which extends between and interconnects said side walls (111 and 112) at a location adjacent to the extended position of said wheel slide (20) and the plane containing the axis (B) of rotation of the workpiece (W).
2. The apparatus according to claim 1 further characterized by said wheel slide (20) being disposed between said first and second side walls (111, 112) for movement along a vertical path therebetween.
3. The apparatus according to claim 1 further characterized by said grinding wheel (40) being mounted on said wheel slide (20) to extend towards said open end of said housing forming said carriage (100).
4. The apparatus according to claim 1 further characterized by said carriage (100) being integrally formed of a heavy walled casting.
5. The apparatus according to claim 1 further characterized by means (114, 116) mounting said wheel slide (20) for vertical linear movement between and on said side walls (111, 112).

This application is a continuation of application Ser. No. 06/925,715 filed Oct. 30, 1986, now abandoned.

This invention relates to an improved apparatus for grinding a workpiece and more specifically to a grinding machine having a carriage which supports a wheel slide for movement toward and away from a workpiece.

Known grinding machines have a base upon which a workpiece is rotatably supported by a headstock and a footstock. A pair of parallel ways adjacent to one side of the base guide movement of a carriage reltative to the base. A grinding wheel is rotatably mounted on a wheel slide. The wheel slide is mounted on the carriage and is movable toward and away from the axis of rotation of the workpiece. The grinding wheel is supported on the wheel slide for rotation about an axis which extends parallel to the axis of rotation of the workpiece. One example of such an apparatus for grinding a workpiece may be found in U.S. Pat. No. 2,710,494 entitled Grinding Machine and issued June 14, 1955.

During operation of an apparatus having this construction, operating forces must be transmitted from the grinding wheel through the carriage to a pair of ways which are both offset to one side of the workpiece. The offset location of the ways is detrimental to the stability of the carriage since all of the operating forces are transmitted to one side of the work area.

The invention is a grinding machine characterized by a carriage which extends across the work area to engage ways on opposite sides of the axis of rotation of the workpiece. When the carriage extends vertically, operating forces which originate in the work area are transmitted from the carriage to the ways in a balanced manner. This increases the stability of the carriage to provide solid support for the grinding wheel and thereby promote grinding accuracy.

FIG. 1 is fragmentary elevational view illustrating the relationship between a carriage and a pair of ways disposed on opposite sides of a workpiece;

FIG. 2 is an enlarged fragmentqry sectional view, taken generally along the line 2--2 of FIG. 1, illustrating the relationship between a wheel slide and the carriage;

FIG. 3 is a side elevational view of a grinding apparatus having the carriage of FIG. 1;

FIG. 4 is a plan view, taken generally along the line 4--4 of FIG. 3, further illustrating the construction of the grinding apparatus; and

FIG. 5 is a schematic illustration of the grinding apparatus.

Referring now to the drawings, FIG. 1 illustrates a grinding apparatus having an upright carraige 100 which supports a wheel slide 20 for vertical movement toward and away from a workpiece W by a wheel slide drive assembly 30. A grinding wheel 40 is supported on the wheel slide 20 for rotation about a horizontal axis by a grinding wheel drive assembly 50. The carriage 100 is movable relative to a base 60 of the grinding apparatus by a carriage drive assembly 70.

The carriage 100 has a pair of vertical legs 111 and 112 which are interconnected by a horizontal connector section 113. The legs 111 and 112 and connector section 113 result in the carriage having an upside-down U-shaped cross sectional configuration in a vertical plane extending perpendicular to a horizontal axis of rotation of the workpiece W. The legs 111 and 112 flare outwardly at their lower end portions to increase the stability of the carriage 100.

The carriage 100 is supported on horizontal ways 61 and 62 which are disposed on opposite sides of the axis of rotation of the workpiece W and extend parallel to the axis of rotation of the workpiece. The ways 61 and 62 are each disposed the same distance from the vertical plane containing the axes of rotation of the workpiece W and grinding wheel 40. Since the carriage 100 spans the work area where operating forces are generated by engagement of the grinding wheel 40 with the workpiece W, operating forces are transmitted in a balanced manner by the vertical carriage legs 111 and 112 to the ways 61 and 62.

The wheel slide 20 is movable along a vertical path extending perpendicular to the axis of rotation of the workpiece W by operation of the drive assembly 30. The wheel slide drive assembly 30 includes a motor 31 mounted on the connector section 113 of the carriage 100. The motor 31 is connected with a vertical drive screw 32 through a coupling 33. The drive screw 32 is in turn connected with the wheel slide 20. The axis of rotation of the drive screw 32 extends perpendicular to the axis of rotation of the workpiece W and is disposed in a vertical plane containing the axis of rotation of the workpiece W and the axis of rotation of the grinding wheel 40.

The grinding wheel drive assembly 50 includes a motor 51 which is mounted on the leg 111 of the carriage 100. The grinding wheel drive motor 51 is connected with the grinding wheel 40 by a belt 52 which extends around a sheave 53 connected with the motor 51.

The vertical carriage 100 facilitates loading and/or unloading of a workpiece W from either side of the grinding apparatus. However, if desired, the orientation of the carriage 100 could be changed. For example, the carriage could have a horizontal orientation rather than the illustrated vertical orientation. If this was done, one of the ways 61 or 62 would be located above the axis of rotation of the workpiece while the other way would be located below the axis of rotation of the workpiece.

FIG. 2 illustrates the relationship between the wheel slide 20 and vertical ways 114, 115 and 116 disposed within the carriage 100. The vertical way 114 is fixedly connected with the leg 111 of the carriage. The vertical ways 115 and 116 are fixedly connected with the leg 112 of the carriage. The ways 115 and 116 are disposed on the opposite side of the grinding wheel axis A from the way 114. The two legs 111 and 112 of the carriage are interconnected by a backwall 117 which extends between the legs.

The vertical ways 114, 115 and 116 are connected with the legs 111 and 112 and backwall 117 of the carriage 100 by bodies 118, 119 and 120 of cast-in-situ material. Although the bodies 118, 119 and 120 could be formed of many different known materials, it is preferred to use "Sikadur 42" (tradmark) structural adhesive which is commercially available from Sika Corporation and is an epoxy resin with sand and/or quartz aggregate fillers. The ways 114, 115 and 116 are rigidly supported by the legs 111 and 112 and backwall 117 of the carriage 100 to provide a stable mounting for the wheel slide 20. Although the ways 114, 115 and 116 are vertical in the illustrated embodiment of the invention, the ways could be horizontal if desired.

The wheel slide 20 includes a rectangular main section 21 and a rectangular guide section 22 which is pivotally connected to the main section 21. A plurality of hydrostatic bearings 23, 24, 25 and 26 engage the ways 114, 115 and 116 to guide movement of the rectangular main section 21 of the wheel slide relative to the ways. An adjustment assembly 27 is connected with the main section 21 and guide section 22 of the wheel slide 20 to adjust the orientation of an axis A about which the grinding wheel 40 rotates relative to the horizontal axis of rotation of the workpiece.

The grinding wheel 40 is rotatably supported on an arbor 28 which is fixedly connected to the main section 21 of the wheel slide 20. A sheave 41 is connected with the grinding wheel 40 and is engaged by the belt 52 to rotate the grinding wheel 40 about its central axis A. The grinding wheel 40 has an outside diameter of six to nine inches. The work piece W has a maximum diameter of six inches.

FIG. 3 illustrates the relationship of a workpiece support and drive assembly 80 to the carriage 100 and base 60. The workpiece support and drive assembly 80 includes a headstock 81 having a spindle which engages one end of the workpiece and is rotated by a drive motor 82. The opposite end of the workpiece is supported by a footstock 83.

The headstock 81 and footstock 83 support the workpiece for rotation about a horizontal axis B. The axis of rotation B of the workpiece is disposed directly beneath the axis of rotation A of the grinding wheel. The axes of rotation A and B of the grinding wheel 40 and workpiece are disposed in a vertical plane which extends parallel to the path of movement of the carriage 100.

The carriage 100 is movable along the base 60 between a forward position disposed at the left (as viewed in FIG. 3) end portion of the base and a rearward position disposed at the right (as viewed in FIG. 3) end portion of the base. When the carriage 100 is in the forward position, a portion of the headstock 81 is enclosed by the carriage. Similarly, when the carriage 100 is in the rearward position, shown in dashed lines in FIG. 3, the footstock 83 is enclosed by the carriage. To accommodate the headstock 81 and the footstock 83, the carriage 100 has a central opening 129 (FIG. 1) which extends through the carriage.

FIG. 4 illustrates the manner in which the ways 61 and 62 extend along the base 60. The ways 61 and 62 have parallel central axes C and D which extend parallel to the axis A of rotation of the grinding wheel 40 and the axis B of rotation of the workpiece. The horizontal way axes C and D are spaced equal distances from and are disposed on opposite sides of a vertical plane containing the axis A of rotation of the grinding wheel 40 and the axis B of rotation of the workpiece. The axes C and D are disposed at the same level, that is, in a single horizontal plane.

The carriage 100 is movable along the ways 61 and 62 between the forward position in which the grinding wheel 40 is adjacent to the headstock 81 and the rearward position in which the grinding wheel is adjacent to the footstock 83. The central opening 129 (FIG. 1) in the carriage 100 is large enough to enable the carriage to clear the headstock 81 and footstock 83 during movement of the carriage along the ways 61 and 62 with the grinding wheel 40 in a raised position. When the carriage 100 is in the forward position, a portion of the headstock 81 is disposed in the opening 129 midway between the carriage legs 111 and 112. When the carriage 100 is in the rearward position, the footstock 83 is disposed in the opening 129 midway between the legs 111 and 112.

The carriage drive 70 includes a motor 71 mounted on the base 60 and a drive screw 72 which is connected with the carriage 100 and the motor 71. The drive screw has a central axis E which extends parallel to the way axes C and D. The drive screw 72 is coextensive with the ways 61 and 62. Therefore, operation of the motor 71 rotates the drive screw 72 to move the carriage 100 along the ways 61 and 62.

A grinding wheel drive assembly 50 moves with the carriage 100 along the ways 61 and 62. Thus, the motor 51 is pivotally mounted on the carriage 100 and is connected with the grinding wheel 40 by the drive belt 52.

FIG. 5 is a schematic illustration depicting the relationship between the axis B of rotation of the workpiece W, the axis A of rotation of the grinding wheel 40 and the axes C and D of the ways 61 and 62. The way axes C and D are disposed in a horizontal plane on opposite sides of and equal distances from a vertical plane containing the axis B of rotation of the workpiece W and the axis A of rotation of the grinding wheel 40. The carriage 100 spans or extends across the work area to engage the parallel ways 61 and 62 on opposite sides of the axis B of rotation of the workpiece W. This results in a balanced transmission of operating forces from the carriage 100 to the ways 61 and 62 to enhance the stability of the carriage 100. The relatively stable carriage 100 provides a solid support for the wheel slide 20 to thereby to promote increased grinding accuracy.

When a workpiece W is to be ground, the wheel slide 20 is first raised to a position adjacent to the connector section 113 of the carriage 100. The workpiece W is then mounted on the headstock 81 and footstock 83 with the axis B of the workpiece extending parallel to the axis A of the grinding wheel. The carriage drive assembly 70 is then operated to move the carriage along the ways 61 and 62 to a location in which the grinding wheel 40 is disposed directly above a portion of the workpiece W to be ground. The wheel slide drive assembly 30 is then operated to lower the wheel slide 20 and move the grinding wheel 40 into engagement with the workpiece. As this is occurring, the grinding wheel 40 is being rotated about the axis A by the grinding wheel drive assembly 50 and the workpiece W is being rotated about the axis B by operation of the headstock drive motor 82.

Operating forces generated during the grinding of the workpiece W are transmitted from the grinding wheel 40 to the wheel slide 20. These operating forces are then transmitted to the center of the connector section 113 of the carriage 100 by the drive screw 32. Substantially equal vertical operating forces are transmitted from the connector section 113 to the ways 61 and 62 by the vertical legs 111 and 112 of the carriage 100. Since the operating forces are transmitted to the ways 61 and 62 on opposite sides of the axis B of rotation of the workpiece W, there is a balanced application of forces to the carriage 100. This enhances the stability of the carriage 100 so that the wheel slide 20 can be accurately moved by the drive assembly 30 to position and support the grinding wheel 40 at a desired location relative to the workpiece W during grinding of the workpiece.

Clough, Arthur H., Knight, Edwin L.

Patent Priority Assignee Title
5018309, Oct 05 1989 Fritz Studer AG Universal grinder
8631927, Jun 19 2009 Gas Technology Institute Track with overlapping links for dry coal extrusion pumps
Patent Priority Assignee Title
2076179,
2088402,
2128023,
2336145,
2441045,
2592200,
2774191,
4417422, Feb 15 1980 Hauni Maschinenbau Aktiengesellschaft Grinding machine
4656787, Apr 20 1984 Matsushita Electric Industrial Co., Ltd. Curved surface formation polishing apparatus
////////
Executed onAssignorAssigneeConveyanceFrameReelDoc
Mar 10 1988The Pratt & Whitney Company, Inc.(assignment on the face of the patent)
Jul 06 1988WARNER & SWASEY COMPANY, THEPRATT & WHITNEY COMPANY, INC , THE, CHARTER OAK BLVD , P O BOX 106221, WEST HARTFORD, CONNECTICUT 06110-6221, A CORP OF OHIOASSIGNMENT OF ASSIGNORS INTEREST 0049930091 pdf
May 24 1989PRATT & WHITNEY COMPANY, INC , THE, A CORP OF OHWESTINGHOUSE CREDIT CORPORATION, A CORP OF DESECURITY INTEREST SEE DOCUMENT FOR DETAILS 0055560242 pdf
Aug 19 1991PRATT + WHITNEY COMPANY, INC , THE, A CORPORATION OF OHLITTON INDUSTRIAL AUTOMATION SYSTEM, INC A DE CORPORATIONASSIGNMENT OF ASSIGNORS INTEREST 0059000133 pdf
Oct 07 1993LITTON INDUSTRIAL AUTOMATION SYSTEMS, INC DELAWARE CORPORATIONWESTERN ATLAS INC , A DELAWARE CORPORATIONCHANGE OF NAME SEE DOCUMENT FOR DETAILS 0122110518 pdf
Jul 10 2001WESTERN ATLAS, INC UNOVA IP CORPASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS 0122110865 pdf
Jul 12 2001UNOVA IP CORP , A DELAWARE CORPORATIONBANK OF AMERICA, N A SECURITY INTEREST SEE DOCUMENT FOR DETAILS 0121880092 pdf
Sep 30 2004BANK OF AMERICA, N A UNOVA IP, CORP RELEASE OF SECURITY INTEREST0160500575 pdf
Date Maintenance Fee Events
Feb 23 1993REM: Maintenance Fee Reminder Mailed.
Jul 25 1993EXP: Patent Expired for Failure to Pay Maintenance Fees.
Aug 08 1996ASPN: Payor Number Assigned.


Date Maintenance Schedule
Jul 25 19924 years fee payment window open
Jan 25 19936 months grace period start (w surcharge)
Jul 25 1993patent expiry (for year 4)
Jul 25 19952 years to revive unintentionally abandoned end. (for year 4)
Jul 25 19968 years fee payment window open
Jan 25 19976 months grace period start (w surcharge)
Jul 25 1997patent expiry (for year 8)
Jul 25 19992 years to revive unintentionally abandoned end. (for year 8)
Jul 25 200012 years fee payment window open
Jan 25 20016 months grace period start (w surcharge)
Jul 25 2001patent expiry (for year 12)
Jul 25 20032 years to revive unintentionally abandoned end. (for year 12)